Aplikace MR spektroskopie v neurochirurgii / The use of MR Spectroscopy in Neurosurgery

Malucelli, Alberto

January 2021

Proton MR spectroscopy is a non-invasive tool for measuring in vivo concentrations of several metabolites. The aim of this thesis was to test its applicability and reliability in neurosurgical praxis. In the first part of the study multiple MR spectroscopy methods were applied in a group of patients after surgery and oncologic treatment for high-grade glioma to test which method performed best in discriminating recurrent tumor from radionecrosis in the presence of a new enhancing lesion. The best diagnostic yield was achieved by comparison of choline, creatine and lactate between lesion and contralateral side (sensitivity 93.3%, specificity 78.6%). Creatine was significantly decreased in patients compared to controls. The inhibiting effect of ongoing oncologic treatment on cerebral and tumoral metabolism makes differential diagnosis trickier. Therefore, a diagnosis of radionecrosis assessed during ongoing radio- and chemotherapy should be confirmed after its completion. In the second part of the study MR spectroscopy data was compared with MR hippocampal volumetry and transcranial doppler examination in a cohort of patients with unilateral occlusion of the internal carotid artery. The N-acetylaspartate/choline ratio and hippocampal volume were significantly lower in both hemispheres of patients...

The Role of Betaine Focused Fluid Osmoregulation in Syringomyelia Post Spinal Cord Injury

Pukale, Dipak Dadaso

05 June 2022

No description available.

Biomedical Research

Biomedical Engineering

Biochemistry

Chemical Engineering

Syringomyelia

post-traumatic syringomyelia (PTSM)

syrinx

spinal cord injury (SCI)

betaine

betaine/GABA transporter 1 (BGT1)

choline dehydrogenase (CHDH)

fluid osmoregulation

choroid plexus organoid

gait analysis

Positron Emission Tomography Imaging of Hepatocellular Carcinoma with Radiolabeled Choline

Kuang, Yu

03 April 2009

No description available.

Biochemistry

Engineering

Health

Radiology

Scientific Imaging

Hepatocellular Carcinoma

Positron Emission Tomography (PET)

[¹¹C]-choline

Molecular imaging

FDG

Cancer Metabolism

Transport mechanism

Phosphatidylcholine synthesis

Lipids

High performance liquid chromatography

Changes in Sympathetic Preganglionic Neurons and Associated Glial Cells following Injury

Coulibaly, Aminata P.

17 August 2010

No description available.

Biology

Biomedical Research

Cellular Biology

Molecular Biology

Choline acetyltransferase

chat

cervical sympathetic trunk

cst

preganglionic neurons

intermediolateral cell column

IML

spinal cord

activating transcription factor-3

ATF-3

distal axonal injury

transection

astrocytes

microglia

Plasticity in the intermediolateral cell column of the spinal cord following injury to sympathetic postganglionic axons

Gannon, Sean Michael

11 August 2014

No description available.

Biology

Neurobiology

Neurosciences

Cellular Biology

intermediolateral cell column

IML

transneuronal effects of injury

superior cervical ganglion

SCG

sympathetic

plasticity

paraventricular nucleus

PVN

choline acetyltransferase

ChAT

transsynaptic

corticotropin-releasing factor

CRF

spinal cord

Advanced Modeling of Longitudinal Spectroscopy Data

Kundu, Madan Gopal

January 2014

Indiana University-Purdue University Indianapolis (IUPUI) / Magnetic resonance (MR) spectroscopy is a neuroimaging technique. It is widely used to quantify the concentration of important metabolites in a brain tissue. Imbalance in concentration of brain metabolites has been found to be associated with development of neurological impairment. There has been increasing trend of using MR spectroscopy as a diagnosis tool for neurological disorders. We established statistical methodology to analyze data obtained from the MR spectroscopy in the context of the HIV associated neurological disorder. First, we have developed novel methodology to study the association of marker of neurological disorder with MR spectrum from brain and how this association evolves with time. The entire problem fits into the framework of scalar-on-function regression model with individual spectrum being the functional predictor. We have extended one of the existing cross-sectional scalar-on-function regression techniques to longitudinal set-up. Advantage of proposed method includes: 1) ability to model flexible time-varying association between response and functional predictor and (2) ability to incorporate prior information. Second part of research attempts to study the influence of the clinical and demographic factors on the progression of brain metabolites over time. In order to understand the influence of these factors in fully non-parametric way, we proposed LongCART algorithm to construct regression tree with longitudinal data. Such a regression tree helps to identify smaller subpopulations (characterized by baseline factors) with differential longitudinal profile and hence helps us to identify influence of baseline factors. Advantage of LongCART algorithm includes: (1) it maintains of type-I error in determining best split, (2) substantially reduces computation time and (2) applicable even observations are taken at subject-specific time-points. Finally, we carried out an in-depth analysis of longitudinal changes in the brain metabolite concentrations in three brain regions, namely, white matter, gray matter and basal ganglia in chronically infected HIV patients enrolled in HIV Neuroimaging Consortium study. We studied the influence of important baseline factors (clinical and demographic) on these longitudinal profiles of brain metabolites using LongCART algorithm in order to identify subgroup of patients at higher risk of neurological impairment. / Partial research support was provided by the National Institutes of Health grants U01-MH083545, R01-CA126205 and U01-CA086368

Spectroscopy

Functional Data Analysis

Longitudinal Functional Data Analysis

Brownian Bridge

Longitudinal CART

Longitudinal Regression Tree

HIV

Brain metabolites

HIV neuroimaging consortium

LongPEER

PEER

Decomposition based penalty

NAA

Creatine

Myo-inositol

Choline

Glutamine and Glutamate

White matter

Gray matter

Basal ganglia

LongCART

neurological disorder

Global deficit score

GSVD

General Singular Value Decomposition

Microbial metabolites -- Research

HIV infections -- Complications

Myelinated neurofibrils

Research -- Methodology

Trees (Graph theory) -- Research

Biometry -- Research -- Methodology

Cerebral cortex

Central nervous system -- Abnormalities

Spectrum analysis -- Research

HIV (Viruses) -- Research -- Analysis

Creatine

Choline

Glutamine

Studies of Spinal Motor Control Networks in Genetically Modified Mouse Models

Gezelius, Henrik

January 2009

Spinal neurons are important in several aspects motor control. For example, the neurons essential for locomotor movements reside in the ventral spinal cord. In this thesis, different motor control functions are being related to neuronal populations defined by their common expression of a gene. First, a targeted disruption of the gene for vesicular glutamate transporter 2 (Vglut2/ Slc17a6) is described. The mutant animals die at birth because of their inability to breathe. The neuronal network in the brainstem, responsible for inspiration, was shown to become non-functional by the targeted deletion of Vglut2. To our surprise, it was still possible to induce rhythmic activity with normal left/right alternation in spinal cords isolated from VGLUT2-null embryos. Inconsistent reports of Vglut1 expression in the spinal cord made us re-evaluate the Vglut1 and Vglut2 expressions. While Vglut2 expression was widespread in the spinal cord, Vglut1 expression was restricted to a few cells dorsal to the central canal.  Taken together, the data suggest that, glutamatergic signaling is mandatory to drive the bilateral breathing, but not needed for coordination of basal alternating spinal locomotor rhythm. Next, a screen for genes with restricted ventral expression was made. Some of the genes found could be connected to the characteristics of specific neuronal cell populations. For example, fast motor neurons were shown to express the genes Calca and Chodl. Further, we found the Chrna2 expression selectively in putative Renshaw cells. It seems likely that the gene product, the alpha2 subunit of the nicotinergic receptor, could be linked to the unique connection of motor neurons to Renshaw cells. We used the Chrna2 promoter to drive expression of Cre recombinase in a transgenic mouse. The Cre activity was present in most neurons labeled with Renshaw cell markers, which should make it a useful tool for functional studies of this population. The studies presented here show how the genes expressed in subsets of neurons can be used to target populations of neurons for functional studies of neuronal systems.

acetyl choline

central nervous system

central pattern generator

Cre recombinase

development

genetic screen

glutamate

interneuron

motor neuron

mouse

mouse genetics

movement

network

neuronal network

nicotinic receptors

physiology

Renshaw cell

rhythm

spinal cord

transmitter

Neuroscience

Neurovetenskap

Neurobiology

Neurobiologi

Molecular neurobiology

Molekylär neurobiologi

Neurophysiology

Neurofysiologi

Neurobiology

Neurobiologi

Studies of the expression and characterization of various transport systems at RBE4 cells, an in vitro model of the blood-brain barrier / Studien zur Expression und Charakterisierung verschiedener Transport Systeme an RBE4 Zellen, einem in vitro Modell der Blut-Hirn Schranke

Friedrich, Anne

05 July 2003

The purpose of this study was the investigation of several transport systems expressed at the BBB. The identification and functional characterization of such transport systems is essential to provide a basis for strategies to regulate drug disposition into the brain. Immortalized rat brain endothelial cells (RBE4 cells) have been used in this study as an in vitro model of the BBB. The present study has shown that the RBE4 cells are a suitable model of the BBB for transporter studies. These cells do express the amino acid transport systems L and y+, which are known to be present at the BBB. The uptake of L-tryptophan, a neutral amino acid transported by system L, exhibited a half saturation constant (Kt) of 31 µM and a maximal velocity rate (Vmax) of about 1 nmol/mg/min in RBE4 cells. The kinetic constants of the L-arginine uptake, representing system y+ transport activity, into RBE4 cells were determined with a Kt value of about 55 µM and a Vmax of 0.56 nmol/mg/min. Furthermore the expression of two sodium dependent transporters, the 5-HT transporter (SERT) and the organic cation/carnitine transporter OCTN2, was shown at the RBE4 cells. Uptake studies with radiolabeled 5-HT exhibited a saturable, sodium dependent transport at RBE4 cells with a Kt value of about 0.40 µM and a Vmax of about 52 fmol/mg/min. L-carnitine and TEA (tetraethylammonium) are known to be transported by the OCTN2 transporter. The uptake of L-carnitine into RBE4 cells was shown to be sodium dependent and saturable with a Kt value of 54 µM and a maximal velocity of about 3.6 pmol/mg/min. In contrast, the organic cation TEA follows a sodium independent uptake mechanism at RBE4 cells. Also a sodium independent choline uptake into the cells was discovered but the molecular identity remained unknown. This saturable choline transport exhibited a Kt value of about 22 µM and a maximal velocity of about 52 pmol/mg/min.

Aminosäuren

Blut-Hirn Schranke

Carnitin

Cholin

Neurotransmitter

OCTN2

Serotonin

System L

Transporter

cat1

in vitro Modell

Blood-brain barrier

OCTN2

System L

amino acids

carnitine

cat1

choline

in vitro model

neurotransmitters

serotonin

transporters

ddc:32

rvk:WW 4120

Aminosäuren

Blut-Hirn-Schranke

Carnitin

Cholin

Endothelzelle

Modell

Neurotransmitter

Serotonin

Transportprozess

in vitro

Studies of the expression and characterization of various transport systems at RBE4 cells, an in vitro model of the blood-brain barrier

Friedrich, Anne

08 November 2002

The purpose of this study was the investigation of several transport systems expressed at the BBB. The identification and functional characterization of such transport systems is essential to provide a basis for strategies to regulate drug disposition into the brain. Immortalized rat brain endothelial cells (RBE4 cells) have been used in this study as an in vitro model of the BBB. The present study has shown that the RBE4 cells are a suitable model of the BBB for transporter studies. These cells do express the amino acid transport systems L and y+, which are known to be present at the BBB. The uptake of L-tryptophan, a neutral amino acid transported by system L, exhibited a half saturation constant (Kt) of 31 µM and a maximal velocity rate (Vmax) of about 1 nmol/mg/min in RBE4 cells. The kinetic constants of the L-arginine uptake, representing system y+ transport activity, into RBE4 cells were determined with a Kt value of about 55 µM and a Vmax of 0.56 nmol/mg/min. Furthermore the expression of two sodium dependent transporters, the 5-HT transporter (SERT) and the organic cation/carnitine transporter OCTN2, was shown at the RBE4 cells. Uptake studies with radiolabeled 5-HT exhibited a saturable, sodium dependent transport at RBE4 cells with a Kt value of about 0.40 µM and a Vmax of about 52 fmol/mg/min. L-carnitine and TEA (tetraethylammonium) are known to be transported by the OCTN2 transporter. The uptake of L-carnitine into RBE4 cells was shown to be sodium dependent and saturable with a Kt value of 54 µM and a maximal velocity of about 3.6 pmol/mg/min. In contrast, the organic cation TEA follows a sodium independent uptake mechanism at RBE4 cells. Also a sodium independent choline uptake into the cells was discovered but the molecular identity remained unknown. This saturable choline transport exhibited a Kt value of about 22 µM and a maximal velocity of about 52 pmol/mg/min.

info:eu-repo/classification/ddc/32

ddc:32